Caerulomycins and collismycins share a common paradigm for 2,2 -bipyridine biosynthesis via an unusual hybrid polyketide-peptide assembly logic

Journal of the American Chemical Society

Volumn 134, Issue 22, 2012, Pages 9038-9041

  Qu, Xudong ^a   Pang, Bo ^a   Zhang, Zhicong ^a   Chen, Ming ^a   Wu, Zhuhua ^a   Zhao, Qunfei ^a   Zhang, Qinglin ^a   Wang, Yinyan ^a   Liu, Yun ^a   Liu, Wen ^a  

^a SHANGHAI INSTITUTE OF ORGANIC CHEMISTRY   (China)

Author keywords

[No Author keywords available]

Indexed keywords

BIOSYNTHETIC GENE CLUSTER; BIOSYNTHETIC PATHWAY; BIPYRIDINES; GENE CLUSTERS; IN-VITRO; INTRAMOLECULAR CYCLIZATIONS; NATURAL PRODUCTS; POLYKETIDE SYNTHASES; SULFHYDRYL GROUPS; SYNTHETASES;

AMINO ACIDS; BIOCHEMISTRY; FUNCTIONAL GROUPS; GENE ENCODING; GENETIC ENGINEERING; KETONES; PEPTIDES; SULFUR;

BIOSYNTHESIS;

2,2' BIPYRIDINE DERIVATIVE; CAERULOMYCIN DERIVATIVE; COLLISMYCIN DERIVATIVE; PEPTIDE DERIVATIVE; POLYKETIDE SYNTHASE; UNCLASSIFIED DRUG;

ARTICLE; BACTERIAL STRAIN; BIOSYNTHESIS; CHEMICAL ANALYSIS; CHEMICAL MODIFICATION; CYCLIZATION; ENZYME ANALYSIS; GENE CLUSTER; NONHUMAN; STREPTOMYCES;

2,2'-DIPYRIDYL; CYCLIZATION; MOLECULAR STRUCTURE; PEPTIDES; POLYKETIDES; STREPTOMYCES;

EID: 84861856345     PISSN: 00027863     EISSN: 15205126     Source Type: Journal    
DOI: 10.1021/ja3016457     Document Type: Article

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